https://www.selleckchem.com/products/tas-102.html The non-homogenized liposomes were more effective than their homogenized version. These findings were also confirmed by FTIR measurements. This suggests that our approach to liposomal development has considerable potential for the repair of a disrupted skin barrier.The mechanical properties of powders determine the ease of manufacture and ultimately the quality of the oral solid dosage forms. Although poor mechanical properties of an active pharmaceutical ingredient (API) can be mitigated by using suitable excipients in a formulation, the effectiveness of that approach is limited for high dose drugs or multidrug tablets. In this context, improving the mechanical properties of the APIs through solid form optimisation is a good strategy to address such a challenge. This work explores the powder and tableting properties of various lamotrigine (LAM) solid forms with the aim to facilitate direct compression by overcoming the poor tabletability of LAM. The two drug-drug crystals of LAM with nicotinamide and valproic acid demonstrate superior flowability and tabletability over LAM. The improved powder properties are rationalised by structure analysis using energy framework, scanning electron microscopy, and Heckel analysis.Chemical incompatibility of the formulation with glass container can adversely impact the quality of parenteral products. The objective of this study is to investigate formulation-glass interactions at the inner surface of the glass containers that lead to the generation of particulates under stressed conditions (i.e., combinations of high pHs, temperatures and prolonged exposure selected to purposely cause failure of glass containers) using advanced microscopic techniques. The optical, electron microscopy and X-ray spectroscopy were used in tandem to investigate the nature of these interactions at the vial inner surface. These interactions were characterized by surface roughness and reaction zones on the